annotate clojure/com/aurellem/assembly.clj @ 129:5e4feb77f2d8

removed literal 0xFFs from assembly code since they interfere with the item-list.
author Robert McIntyre <rlm@mit.edu>
date Sat, 17 Mar 2012 19:25:38 -0500
parents 203d64e16156
children 69f241de436d
rev   line source
rlm@105 1 (ns com.aurellem.assembly
rlm@105 2 (:use (com.aurellem gb-driver vbm title items))
rlm@105 3 (:import [com.aurellem.gb_driver SaveState]))
rlm@105 4
rlm@106 5 (defn mid-game []
rlm@106 6 (read-state "mid-game"))
rlm@105 7
rlm@105 8 (defn inject-assembly
rlm@107 9 ([^SaveState state
rlm@105 10 program-counter registers
rlm@105 11 assembly-code]
rlm@105 12 (let [scratch-memory (memory state)]
rlm@105 13 ;; inject assembly code
rlm@105 14 (dorun (map (fn [index val]
rlm@105 15 (aset scratch-memory index val))
rlm@105 16 (range program-counter
rlm@105 17 (+ program-counter (count assembly-code)))
rlm@105 18 assembly-code))
rlm@106 19 (-> state
rlm@106 20 (write-memory! scratch-memory)
rlm@106 21 (write-registers! registers)
rlm@112 22 (PC! program-counter)))))
rlm@105 23
rlm@105 24 (defn inject-item-assembly
rlm@105 25 ([^SaveState state assembly-code]
rlm@105 26 (inject-assembly state (inc item-list-start)
rlm@105 27 (registers state)
rlm@105 28 assembly-code))
rlm@105 29 ([assembly-code]
rlm@105 30 (inject-item-assembly @current-state assembly-code)))
rlm@105 31
rlm@105 32 (defn info
rlm@105 33 ([^SaveState state]
rlm@107 34 (println (format "PC: 0x%04X" (PC state)))
rlm@106 35 (println "Instruction:"
rlm@106 36 (format "0x%02X" (aget (memory state) (PC state))))
rlm@105 37 state))
rlm@105 38
rlm@107 39 (defn print-interrupt
rlm@107 40 [^SaveState state]
rlm@107 41 (println (format "IE: %d" (IE state)))
rlm@107 42 state)
rlm@107 43
rlm@118 44 (defn print-listing [state begin end]
rlm@118 45 (dorun (map
rlm@118 46 (fn [opcode line]
rlm@118 47 (println (format "0x%04X: 0x%02X" line opcode)))
rlm@118 48 (subvec (vec (memory state)) begin end)
rlm@118 49 (range begin end)))
rlm@118 50 state)
rlm@118 51
rlm@105 52 (defn run-assembly
rlm@105 53 ([info-fn assembly n]
rlm@105 54 (let [final-state
rlm@105 55 (reduce (fn [state _]
rlm@105 56 (tick (info-fn state)))
rlm@107 57 (inject-item-assembly
rlm@107 58 (mid-game) assembly)
rlm@105 59 (range n))]
rlm@105 60 final-state))
rlm@105 61 ([assembly n]
rlm@105 62 (run-assembly info assembly n)))
rlm@107 63
rlm@107 64 (def buttons-port 0xFF00)
rlm@107 65
rlm@107 66 (defn A [state]
rlm@107 67 (bit-shift-right (bit-and 0x0000FF00 (AF state)) 8))
rlm@107 68
rlm@128 69 (defn B [state]
rlm@128 70 (bit-shift-right (bit-and 0x0000FF00 (BC state)) 8))
rlm@128 71
rlm@128 72 (defn C [state]
rlm@128 73 (bit-and 0xFF (BC state)))
rlm@128 74
rlm@110 75 (defn binary-str [num]
rlm@110 76 (format "%08d"
rlm@110 77 (Integer/parseInt
rlm@110 78 (Integer/toBinaryString num) 10)))
rlm@110 79
rlm@110 80 (defn view-register [state name reg-fn]
rlm@110 81 (println (format "%s: %s" name
rlm@110 82 (binary-str (reg-fn state))))
rlm@110 83 state)
rlm@110 84
rlm@107 85 (defn view-memory [state mem]
rlm@110 86 (println (format "mem 0x%04X = %s" mem
rlm@110 87 (binary-str (aget (memory state) mem))))
rlm@107 88 state)
rlm@107 89
rlm@118 90 (defn trace [state]
rlm@124 91 (loop [program-counters [(first (registers @current-state)) ]
rlm@124 92 opcodes [(aget (memory @current-state) (PC @current-state))]]
rlm@118 93 (let [frame-boundary?
rlm@118 94 (com.aurellem.gb.Gb/tick)]
rlm@118 95 (if frame-boundary?
rlm@118 96 [program-counters opcodes]
rlm@118 97 (recur
rlm@118 98 (conj program-counters
rlm@118 99 (first (registers @current-state)))
rlm@118 100 (conj opcodes
rlm@118 101 (aget (memory @current-state)
rlm@118 102 (PC @current-state))))))))
rlm@124 103
rlm@124 104 (defn print-trace [state n]
rlm@124 105 (let [[program-counters opcodes] (trace state)]
rlm@124 106 (dorun (map (fn [pc op] (println (format "%04X: 0x%02X" pc op)))
rlm@124 107 (take n program-counters)
rlm@124 108 (take n opcodes)))))
rlm@124 109
rlm@118 110 (defn good-trace []
rlm@118 111 (-> (mid-game) (tick) (IE! 0)
rlm@118 112 (set-inv-mem [0x00 0x00 0X00 0x00])
rlm@118 113 (PC! item-list-start)(print-interrupt)
rlm@118 114 (info) (tick) (info) (tick) (info)))
rlm@118 115
rlm@113 116 (defn read-down-button []
rlm@110 117 (-> (tick (mid-game))
rlm@110 118 (IE! 0) ; disable interrupts
rlm@110 119 (inject-item-assembly
rlm@118 120 ;; write 00010000 to 0xFF00 to select joypad
rlm@118 121 [0x18 ;D31D ; jump over
rlm@118 122 0x01 ;D31E ; the next 8 bits
rlm@118 123 ;D31F
rlm@118 124 (Integer/parseInt "00100000" 2) ; data section
rlm@118 125
rlm@118 126 0xFA ;D320 ; load (D31F) into A
rlm@118 127 0x1F ;D321 -->
rlm@118 128 0xD3 ;D322 --> D31F
rlm@107 129
rlm@118 130 0xEA ;D323 ; load (A), which is
rlm@118 131 0x00 ;D324 --> ; 00010000, into FF00
rlm@118 132 0xFF ;D325 --> FF00
rlm@118 133
rlm@118 134 0x18 ;D326 ; this is the place where
rlm@118 135 0x01 ;D327 ; we will store whether
rlm@118 136 0x00 ;D328 ; "down" is pressed.
rlm@107 137
rlm@118 138 0xFA ;D329 ; (FF00) -> A
rlm@118 139 0x00 ;D32A
rlm@118 140 0xFF ;D32B
rlm@110 141
rlm@118 142 0xCB ;D32C ; Test whether "down"
rlm@118 143 0x5F ;D32D ; is pressed.
rlm@111 144
rlm@118 145 0x28 ;D32E ; if down is pressed,
rlm@118 146 0x03 ;D32F ; skip the next section
rlm@118 147 ; of code.
rlm@118 148 ;; down-is-not-pressed
rlm@118 149 0xC3 ;D330
rlm@118 150 0x1D ;D331 ; return to beginning
rlm@118 151 0xD3 ;D332
rlm@118 152
rlm@118 153 ;; down-is-pressed
rlm@118 154 0xEA ;D334 ; write A to D328 if
rlm@118 155 0x28 ;D335 ; "down" was pressed
rlm@118 156 0xD3 ;D336
rlm@111 157
rlm@118 158 0xC3 ;D330
rlm@118 159 0x1D ;D331 ; return to beginning
rlm@118 160 0xD3 ;D332
rlm@118 161 ])))
rlm@111 162
rlm@118 163 (defn test-read-down []
rlm@118 164 (= (view-memory (step (step (read-down-button) [:d])) 0xD328)
rlm@118 165 (view-memory (step (step (read-down-button))) 0xD328)))
rlm@113 166
rlm@113 167 (defn count-frames []
rlm@113 168 (-> (tick (mid-game))
rlm@113 169 (IE! 0) ; disable interrupts
rlm@113 170 (inject-item-assembly
rlm@113 171 [0x18 ;D31D ; jump over
rlm@113 172 0x02 ;D31E ; the next 2 bytes
rlm@113 173 0x00 ;D31F ; frame-count
rlm@113 174 0x00 ;D320 ; v-blank-prev
rlm@113 175
rlm@113 176 0xFA ;D321
rlm@113 177 0x41 ;D322 ; load (FF41) into A
rlm@113 178 0xFF ;D323 ; this contains mode flags
rlm@113 179
rlm@113 180 ;; if we're in v-blank, the bit-1 is 0
rlm@113 181 ;; and bit-2 is 1 Otherwise, it is not v-blank.
rlm@113 182 0xCB ;D324 ; test bit-1 of A
rlm@113 183 0x4F ;D325
rlm@113 184
rlm@113 185 0xC2 ;D326 ; if bit-1 is not 0
rlm@115 186 0x44 ;D327 ; GOTO not-v-blank
rlm@113 187 0xD3 ;D328
rlm@113 188
rlm@113 189 0xCB ;D329 ; test bit-0 of A
rlm@113 190 0x47 ;D32A
rlm@113 191
rlm@113 192 0xCA ;D32B ; if bit-0 is not 1
rlm@115 193 0x44 ;D32C ; GOTO not-v-blank
rlm@113 194 0xD3 ;D32D
rlm@114 195 ;;; in v-blank mode
rlm@113 196 ;; if v-blank-prev was 0,
rlm@113 197 ;; increment frame-count
rlm@113 198
rlm@113 199 0xFA ;D32E ; load v-blank-prev to A
rlm@113 200 0x20 ;D32F
rlm@113 201 0xD3 ;D330
rlm@113 202
rlm@113 203 0xCB ;D331
rlm@113 204 0x47 ;D332 ; test bit-0 of A
rlm@113 205
rlm@113 206 0x20 ;D333 ; skip next section
rlm@113 207 0x07 ;D334 ; if v-blank-prev was not zero
rlm@113 208
rlm@113 209 ;; v-blank was 0, increment frame-count
rlm@113 210 0xFA ;D335 ; load frame-count into A
rlm@113 211 0x1F ;D336
rlm@113 212 0xD3 ;D337
rlm@113 213
rlm@113 214 0x3C ;D338 ; inc A
rlm@113 215
rlm@113 216 0xEA ;D339 ; load A into frame-count
rlm@113 217 0x1F ;D33A
rlm@113 218 0xD3 ;D33B
rlm@113 219
rlm@114 220 ;; set v-blank-prev to 1
rlm@113 221 0x3E ;D33C ; load 1 into A
rlm@113 222 0x01 ;D33D
rlm@113 223
rlm@113 224 0xEA ;D33E ; load A into v-blank-prev
rlm@113 225 0x20 ;D33F
rlm@113 226 0xD3 ;D340
rlm@113 227
rlm@115 228 0xC3 ;D341 ; return to beginning
rlm@115 229 0x1D ;D342
rlm@115 230 0xD3 ;D343
rlm@113 231
rlm@114 232 ;;; not in v-blank mode
rlm@114 233 ;; set v-blank-prev to 0
rlm@115 234 0x3E ;D344 ; load 0 into A
rlm@115 235 0x00 ;D345
rlm@113 236
rlm@115 237 0xEA ;D346 ; load A into v-blank-prev
rlm@115 238 0x20 ;D347
rlm@115 239 0xD3 ;D348
rlm@115 240
rlm@115 241 0xC3 ;D349 ; return to beginning
rlm@115 242 0x1D ;D34A
rlm@115 243 0xD3 ;D34B
rlm@113 244 ])))
rlm@113 245
rlm@114 246 (defn step-count-frames []
rlm@113 247 (-> (read-down-button)
rlm@110 248 (info)
rlm@110 249 (tick) ;; skip over data section
rlm@110 250 (info)
rlm@110 251 (view-register "Register A" A)
rlm@110 252 (tick) ;; load-data into A
rlm@110 253 (view-register "Register A" A)
rlm@110 254 (info)
rlm@110 255 (view-memory 0xFF00)
rlm@110 256 (tick) ;; load A into 0xFF00
rlm@110 257 (view-memory 0xFF00)
rlm@111 258 (info)
rlm@111 259 (tick)
rlm@111 260 (info)
rlm@111 261 (tick)
rlm@111 262 (info)
rlm@111 263 (tick)
rlm@111 264 (info)
rlm@111 265 (tick)
rlm@111 266 (info)
rlm@111 267 (tick)
rlm@111 268 (info)
rlm@111 269 (tick)
rlm@111 270 (print-inventory)))
rlm@111 271
rlm@115 272 (defn test-count-frames []
rlm@115 273 (= 255 (aget (memory ((apply comp (repeat 255 step))
rlm@115 274 (count-frames)))
rlm@115 275 0xD31F)))
rlm@115 276
rlm@115 277 ;; specs for main bootstrap program
rlm@115 278 ;; starts in "mode-select" mode
rlm@115 279 ;; Each button press takes place in a single frame.
rlm@115 280 ;; mode-select-mode takes one of the main buttons
rlm@115 281 ;; which selects one of up to eight modes
rlm@115 282 ;; mode 1 activated by the "A" button
rlm@115 283 ;; the next two button presses indicates the start
rlm@115 284 ;; memory location which to which the bootstrap
rlm@115 285 ;; program will write.
rlm@115 286 ;; This is done by using each of the eight buttons to
rlm@115 287 ;; spell out an 8 bit number. The order of buttons is
rlm@116 288 ;; [:d :u :l :r :start :select :b :a]
rlm@116 289 ;; [:a :start :l] --> 00101001
rlm@114 290
rlm@115 291 ;; the next button press determines how many bytes are to be
rlm@115 292 ;; written, starting at the start position.
rlm@114 293
rlm@115 294 ;; then, the actual bytes are entered and are written to the
rlm@115 295 ;; start address in sequence.
rlm@114 296
rlm@118 297 (defn input-number-assembly []
rlm@118 298 [0x18 ;D31D ; jump over
rlm@118 299 0x02 ;D31E ; the next 2 bytes
rlm@118 300 0x00 ;D31F ; frame-count
rlm@118 301 0x00 ;D320 ; v-blank-prev
rlm@118 302
rlm@118 303 0xFA ;D321
rlm@118 304 0x41 ;D322 ; load (FF41) into A
rlm@118 305 0xFF ;D323 ; this contains mode flags
rlm@118 306
rlm@118 307 ;; if we're in v-blank, the bit-1 is 0
rlm@118 308 ;; and bit-2 is 1 Otherwise, it is not v-blank.
rlm@118 309 0xCB ;D324 ; test bit-1 of A
rlm@118 310 0x4F ;D325
rlm@114 311
rlm@118 312 0xC2 ;D326 ; if bit-1 is not 0
rlm@118 313 0x44 ;D327 ; GOTO not-v-blank
rlm@118 314 0xD3 ;D328
rlm@118 315
rlm@118 316 0xCB ;D329 ; test bit-0 of A
rlm@118 317 0x47 ;D32A
rlm@118 318
rlm@118 319 0xCA ;D32B ; if bit-0 is not 1
rlm@118 320 0x44 ;D32C ; GOTO not-v-blank
rlm@118 321 0xD3 ;D32D
rlm@118 322
rlm@118 323 ;;; in v-blank mode
rlm@118 324
rlm@118 325 ;; if v-blank-prev was 0,
rlm@118 326 ;; increment frame-count
rlm@118 327
rlm@118 328 0xFA ;D32E ; load v-blank-prev to A
rlm@118 329 0x20 ;D32F
rlm@118 330 0xD3 ;D330
rlm@118 331
rlm@118 332 0xCB ;D331
rlm@118 333 0x47 ;D332 ; test bit-0 of A
rlm@118 334
rlm@118 335 0x20 ;D333 ; skip next section
rlm@118 336 0x07 ;D334 ; if v-blank-prev was not zero
rlm@118 337
rlm@118 338 ;; v-blank was 0, increment frame-count
rlm@118 339 0xFA ;D335 ; load frame-count into A
rlm@118 340 0x1F ;D336
rlm@118 341 0xD3 ;D337
rlm@118 342
rlm@118 343 0x3C ;D338 ; inc A
rlm@118 344
rlm@118 345 0xEA ;D339 ; load A into frame-count
rlm@118 346 0x1F ;D33A
rlm@118 347 0xD3 ;D33B
rlm@118 348
rlm@118 349 ;; set v-blank-prev to 1
rlm@118 350 0x3E ;D33C ; load 1 into A
rlm@118 351 0x01 ;D33D
rlm@118 352
rlm@118 353 0xEA ;D33E ; load A into v-blank-prev
rlm@118 354 0x20 ;D33F
rlm@118 355 0xD3 ;D340
rlm@118 356
rlm@118 357 0xC3 ;D341 ; GOTO input handling code
rlm@118 358 0x4E ;D342
rlm@118 359 0xD3 ;D343
rlm@118 360
rlm@118 361 ;;; not in v-blank mode
rlm@118 362 ;; set v-blank-prev to 0
rlm@118 363 0x3E ;D344 ; load 0 into A
rlm@118 364 0x00 ;D345
rlm@118 365
rlm@118 366 0xEA ;D346 ; load A into v-blank-prev
rlm@118 367 0x20 ;D347
rlm@118 368 0xD3 ;D348
rlm@118 369
rlm@118 370 0xC3 ;D349 ; return to beginning
rlm@118 371 0x1D ;D34A
rlm@118 372 0xD3 ;D34B
rlm@118 373
rlm@118 374 0x00 ;D34C ; these are here
rlm@118 375 0x00 ;D34D ; for glue
rlm@118 376
rlm@118 377
rlm@118 378 ;;; calculate input number based on button presses
rlm@118 379 0x18 ;D34E ; skip next 3 bytes
rlm@118 380 0x03 ;D34F
rlm@118 381 ;D350
rlm@118 382 (Integer/parseInt "00100000" 2) ; select directional pad
rlm@118 383 ;D351
rlm@118 384 (Integer/parseInt "00010000" 2) ; select buttons
rlm@118 385 0x00 ;D352 ; input-number
rlm@118 386
rlm@118 387 ;; select directional pad, store low bits in B
rlm@118 388
rlm@118 389 0xFA ;D353 ; load (D350) into A
rlm@118 390 0x50 ;D354 -->
rlm@118 391 0xD3 ;D355 --> D31F
rlm@118 392
rlm@118 393 0xEA ;D356 ; load (A), which is
rlm@118 394 0x00 ;D357 --> ; 00010000, into FF00
rlm@118 395 0xFF ;D358 --> FF00
rlm@118 396
rlm@118 397 0x06 ;D359
rlm@118 398 ;D35A
rlm@118 399 (Integer/parseInt "11110000" 2) ; "11110000" -> B
rlm@118 400 0xFA ;D35B ; (FF00) -> A
rlm@118 401 0x00 ;D35C
rlm@118 402 0xFF ;D35D
rlm@118 403
rlm@118 404 0xCB ;D35E ; swap nybbles on A
rlm@118 405 0x37 ;D35F
rlm@118 406 0xA0 ;D360 ; (AND A B) -> A
rlm@118 407 0x47 ;D361 ; A -> B
rlm@118 408
rlm@118 409 ;; select buttons store bottom bits in C
rlm@118 410
rlm@118 411 0xFA ; ; load (D351) into A
rlm@118 412 0x51 ; -->
rlm@118 413 0xD3 ; --> D31F
rlm@118 414
rlm@118 415 0xEA ; ; load (A), which is
rlm@118 416 0x00 ; --> ; 00001000, into FF00
rlm@118 417 0xFF ; --> FF00
rlm@118 418
rlm@118 419 0x0E ;
rlm@118 420 (Integer/parseInt "00001111" 2) ; "00001111" -> C
rlm@118 421
rlm@118 422 0xFA ; ; (FF00) -> A
rlm@118 423 0x00 ;
rlm@118 424 0xFF ;
rlm@118 425
rlm@118 426 0xA1 ; ; (AND A C) -> A
rlm@118 427 0x4F ; ; A -> C
rlm@118 428
rlm@118 429 ;; combine the B and C registers into the input number
rlm@118 430 0x79 ; ; C -> A
rlm@118 431 0xB0 ; ; (OR A B) -> A
rlm@118 432 0x2F ; ; negate A
rlm@118 433
rlm@118 434 0xEA ; ; store A into input-number
rlm@118 435 0x52 ;
rlm@118 436 0xD3 ;
rlm@118 437
rlm@118 438 0xC3 ; ; return to beginning
rlm@118 439 0x1D ;
rlm@118 440 0xD3 ;
rlm@118 441 ])
rlm@114 442
rlm@128 443
rlm@128 444 (defn print-pc [state]
rlm@128 445 (println (format "PC: 0x%04X" (PC state)))
rlm@128 446 state)
rlm@128 447
rlm@128 448 (defn print-op [state]
rlm@128 449 (println (format "OP: 0x%02X" (aget (memory state) (PC state))))
rlm@128 450 state)
rlm@128 451
rlm@128 452 (defn d-tick
rlm@128 453 ([state]
rlm@128 454 (-> state print-pc print-op tick)))
rlm@128 455
rlm@115 456 (defn input-number []
rlm@115 457 (-> (tick (mid-game))
rlm@115 458 (IE! 0) ; disable interrupts
rlm@118 459 (inject-item-assembly (input-number-assembly))))
rlm@115 460
rlm@117 461 (defn test-input-number
rlm@117 462 "Input freestyle buttons and observe the effects at the repl."
rlm@117 463 []
rlm@117 464 (set-state! (input-number))
rlm@117 465 (dotimes [_ 90000] (step (view-memory @current-state 0xD352))))
rlm@115 466
rlm@128 467 (defn d2 []
rlm@128 468 (->
rlm@128 469 (write-mem-dyl)
rlm@128 470 (view-memory 0xD31F)
rlm@128 471 step step step step step
rlm@128 472 (view-memory 0xD31F)))
rlm@128 473
rlm@128 474 (defn dylan []
rlm@128 475 (->
rlm@128 476 (write-mem-dyl)
rlm@128 477 (tick)
rlm@128 478 (tick)
rlm@128 479 (tick)
rlm@128 480 (tick)
rlm@128 481 (tick)
rlm@128 482 (tick)
rlm@128 483 (tick)
rlm@128 484 (tick)
rlm@128 485 (tick)
rlm@128 486 (tick)
rlm@128 487 (tick)
rlm@128 488 (tick)
rlm@128 489
rlm@128 490 (tick)
rlm@128 491 (tick)
rlm@128 492 (tick)
rlm@128 493 (tick)
rlm@128 494 (tick)
rlm@128 495
rlm@128 496 (d-tick)
rlm@128 497 (view-register "A" A)
rlm@128 498 (view-register "B" B)
rlm@128 499 (view-register "C" C)
rlm@128 500
rlm@128 501 ))
rlm@128 502
rlm@128 503
rlm@128 504
rlm@128 505
rlm@128 506 (defn write-memory-assembly* []
rlm@128 507 [
rlm@128 508 0x18 ;; D31D
rlm@128 509 0x02
rlm@128 510 0x00 ;; frame-count D31F
rlm@128 511 0x00 ;; v-blank-prev D320
rlm@128 512
rlm@128 513 0xFA ;; load modes into A
rlm@128 514 0x41
rlm@128 515 0xFF
rlm@128 516
rlm@128 517 0x47
rlm@128 518
rlm@128 519 0xCB
rlm@128 520 0x2F
rlm@128 521 0x2F
rlm@128 522
rlm@128 523 0xA0
rlm@128 524 0xE6
rlm@128 525 0x01
rlm@128 526 0x47 ;; now B contains (VB==1)
rlm@128 527
rlm@128 528 0xFA ;; load v-blank-prev
rlm@128 529 0x20
rlm@128 530 0xD3
rlm@128 531
rlm@128 532 0x2F
rlm@128 533
rlm@128 534 0xA0
rlm@128 535 0x4F ;; now C contains increment?
rlm@128 536
rlm@128 537 0xFA ;; load frame count
rlm@128 538 0x1F
rlm@128 539 0xD3
rlm@128 540
rlm@128 541 0x81 ;; add A+C->A
rlm@128 542 0xEA ;; spit A --> fc
rlm@128 543 0x1F
rlm@128 544 0xD3
rlm@128 545
rlm@128 546 0x78 ;; B->A
rlm@128 547
rlm@128 548 0xEA ;; spit A --> vbprev
rlm@128 549 0x20
rlm@128 550 0xD3
rlm@128 551
rlm@128 552 0xC3 ;D40F ; go back to beginning
rlm@128 553 0x1D ;D410
rlm@128 554 0xD3 ;D411
rlm@128 555 ]
rlm@128 556 )
rlm@128 557
rlm@128 558 (defn write-mem-dyl []
rlm@128 559 (-> (tick (mid-game))
rlm@128 560 (IE! 0)
rlm@128 561 (inject-item-assembly (write-memory-assembly*))))
rlm@128 562
rlm@128 563
rlm@128 564
rlm@118 565 (defn write-memory-assembly []
rlm@129 566 [
rlm@123 567 ;; Main Timing Loop
rlm@123 568 ;; Constantly check for v-blank and Trigger main state machine on
rlm@123 569 ;; every transtion from v-blank to non-v-blank.
rlm@129 570
rlm@123 571 0x18 ; D31D ; Variable declaration
rlm@123 572 0x02 ; D31E
rlm@123 573 0x00 ; D31F ; frame-count
rlm@123 574 0x00 ; D320 ; v-blank-prev
rlm@129 575
rlm@129 576 0xF0 ; D321 ; load v-blank mode flags into A
rlm@129 577 0x41
rlm@129 578 0x00
rlm@123 579
rlm@123 580
rlm@123 581 ;; Branch dependent on v-blank. v-blank happens when the last two
rlm@123 582 ;; bits in A are "01"
rlm@123 583 0xCB ; D324
rlm@123 584 0x4F ; D325
rlm@123 585
rlm@123 586 0xC2 ; D326 ; if bit-1 is not 0, then
rlm@124 587 0x3E ; D327 ; GOTO non-v-blank.
rlm@123 588 0xD3 ; D328
rlm@123 589
rlm@123 590 0xCB ; D329
rlm@123 591 0x47 ; D32A
rlm@123 592
rlm@123 593 0xCA ; D32B ; if bit-0 is not 1, then
rlm@124 594 0x3E ; D32C ; GOTO non-v-blank.
rlm@123 595 0xD3 ; D32D
rlm@123 596
rlm@123 597 ;; V-Blank
rlm@123 598 ;; Activate state-machine if this is a transition event.
rlm@123 599
rlm@123 600 0xFA ; D32E ; load v-bank-prev into A
rlm@123 601 0x20 ; D32F
rlm@123 602 0xD3 ; D330
rlm@123 603
rlm@124 604 0xFE ; D331 ; compare A to 0. >--------\
rlm@124 605 0x00 ; D332 \
rlm@124 606 ; |
rlm@124 607 ;; set v-blank-prev to 1. |
rlm@124 608 0x3E ; D333 ; load 1 into A. |
rlm@124 609 0x01 ; D334 |
rlm@124 610 ; |
rlm@124 611 0xEA ; D335 ; load A into v-blank-prev |
rlm@124 612 0x20 ; D336 |
rlm@124 613 0xD3 ; D337 |
rlm@124 614 ; /
rlm@124 615 ;; if v-blank-prev was 0, activate state-machine <------/
rlm@124 616 0xCA ; D338 ; if v-blank-prev
rlm@123 617 0x46 ; D339 ; was 0,
rlm@123 618 0xD3 ; D33A ; GOTO state-machine
rlm@123 619
rlm@123 620 0xC3 ; D33B
rlm@123 621 0x1D ; D33C
rlm@123 622 0xD3 ; D33D ; GOTO beginning
rlm@123 623 ;; END V-blank
rlm@123 624
rlm@123 625 ;; Non-V-Blank
rlm@123 626 ;; Set v-blank-prev to 0
rlm@123 627 0x3E ; D33E ; load 0 into A
rlm@123 628 0x00 ; D33F
rlm@123 629
rlm@123 630 0xEA ; D340 ; load A into v-blank-prev
rlm@123 631 0x20 ; D341
rlm@123 632 0xD3 ; D342
rlm@118 633
rlm@123 634 0xC3 ; D343
rlm@123 635 0x1D ; D344
rlm@123 636 0xD3 ; D345 ; GOTO beginning
rlm@123 637 ;; END Not-V-Blank
rlm@115 638
rlm@124 639
rlm@123 640 ;; Main State Machine -- Input Section
rlm@123 641 ;; This is called once every frame.
rlm@123 642 ;; It collects input and uses it to drive the
rlm@123 643 ;; state transitions.
rlm@123 644
rlm@123 645 ;; Increment frame-count
rlm@123 646 0xFA ; D346 ; load frame-count into A
rlm@123 647 0x1F ; D347
rlm@123 648 0xD3 ; D348
rlm@118 649
rlm@123 650 0x3C ; D349 ; inc A
rlm@115 651
rlm@123 652 0xEA ; D34A
rlm@123 653 0x1F ; D34B ; load A into frame-count
rlm@123 654 0xD3 ; D34C
rlm@118 655
rlm@123 656 0x00 ; D34D ; glue :)
rlm@118 657
rlm@118 658 0x18 ;D34E ; skip next 3 bytes
rlm@118 659 0x03 ;D34F
rlm@123 660 ;D350
rlm@118 661 (Integer/parseInt "00100000" 2) ; select directional pad
rlm@123 662 ;D351
rlm@118 663 (Integer/parseInt "00010000" 2) ; select buttons
rlm@118 664 0x00 ;D352 ; input-number
rlm@118 665
rlm@123 666 ;; select directional pad; store low bits in B
rlm@118 667
rlm@118 668 0xFA ;D353 ; load (D350) into A
rlm@118 669 0x50 ;D354 -->
rlm@123 670 0xD3 ;D355 --> D350
rlm@118 671
rlm@129 672 0xE0 ;D356 ; load (A), which is
rlm@118 673 0x00 ;D357 --> ; 00010000, into FF00
rlm@129 674 0x00 ;D358 --> FF00 ;; NO-OP
rlm@118 675
rlm@118 676 0x06 ;D359
rlm@123 677 ;D35A
rlm@118 678 (Integer/parseInt "11110000" 2) ; "11110000" -> B
rlm@129 679 0xF0 ;D35B ; (FF00) -> A
rlm@118 680 0x00 ;D35C
rlm@129 681 0x00 ;D35D ;; NO-OP
rlm@118 682
rlm@118 683 0xCB ;D35E ; swap nybbles on A
rlm@118 684 0x37 ;D35F
rlm@118 685 0xA0 ;D360 ; (AND A B) -> A
rlm@118 686 0x47 ;D361 ; A -> B
rlm@118 687
rlm@123 688 ;; select buttons; store bottom bits in C
rlm@118 689
rlm@118 690 0xFA ;D362 ; load (D351) into A
rlm@118 691 0x51 ;D363 -->
rlm@123 692 0xD3 ;D364 --> D351
rlm@118 693
rlm@129 694 0xE0 ;D365 ; load (A), which is
rlm@118 695 0x00 ;D366 --> ; 00001000, into FF00
rlm@129 696 0x00 ;D367 --> FF00 ;; NO-OP
rlm@118 697
rlm@118 698 0x0E ;D368
rlm@118 699 ;D369
rlm@118 700 (Integer/parseInt "00001111" 2) ; "00001111" -> C
rlm@118 701
rlm@129 702 0xF0 ;D36A ; (FF00) -> A
rlm@118 703 0x00 ;D36B
rlm@129 704 0x00 ;D36C
rlm@118 705
rlm@118 706 0xA1 ;D36D ; (AND A C) -> A
rlm@118 707 0x4F ;D36E ; A -> C
rlm@118 708
rlm@118 709 ;; combine the B and C registers into the input number
rlm@118 710 0x79 ;D36F ; C -> A
rlm@118 711 0xB0 ;D370 ; (OR A B) -> A
rlm@118 712 0x2F ;D371 ; negate A
rlm@118 713
rlm@118 714 0xEA ;D372 ; store A into input-number
rlm@118 715 0x52 ;D373
rlm@118 716 0xD3 ;D374
rlm@118 717
rlm@124 718 0x00 ;D375
rlm@124 719 0x00 ;D376
rlm@124 720 0x00 ;D377
rlm@118 721 0x00 ;D378
rlm@118 722 0x00 ;D379
rlm@118 723 0x00 ;D37A
rlm@118 724 0x00 ;D37B ; these are here because
rlm@118 725 0x00 ;D37C ; I messed up :(
rlm@118 726 0x00 ;D37D
rlm@118 727 0x00 ;D37E
rlm@118 728 0x00 ;D37F
rlm@118 729
rlm@118 730 ;; beginning of main state machine
rlm@118 731 0x18 ;D380 ; Declaration of variables
rlm@118 732 0x05 ;D381 ; 5 variables:
rlm@118 733 0x00 ;D382 ; current-mode
rlm@122 734 0x00 ;D383 ; bytes-to-write
rlm@126 735 0x00 ;D384 ; bytes-written
rlm@126 736 0x00 ;D385 ; start-point-high
rlm@126 737 0x00 ;D386 ; start-point-low
rlm@118 738
rlm@118 739
rlm@118 740 ;; banch on current mode
rlm@118 741 0xFA ;D387 ; load current-mode (0xD382)
rlm@118 742 0x82 ;D388 ; into A
rlm@118 743 0xD3 ;D389
rlm@118 744 0x00 ;D38A
rlm@118 745
rlm@120 746
rlm@120 747 ;; GOTO Mode 0 (input-mode) if current-mode is 0
rlm@118 748 0xFE ;D38B
rlm@118 749 0x00 ;D38C ; compare A with 0x00
rlm@118 750
rlm@120 751 0xCA ;D38D ; goto Mode 0 if A == 0
rlm@118 752 0xA8 ;D38E
rlm@118 753 0xD3 ;D38F
rlm@118 754
rlm@121 755 ;; GOTO Mode 1 (set-length) if current-mode is 1
rlm@120 756 0xFE ;D390
rlm@120 757 0x01 ;D391 ; compare A with 0x01
rlm@120 758
rlm@120 759 0xCA ;D392
rlm@120 760 0xB1 ;D393
rlm@120 761 0xD3 ;D394 ; goto Mode 1 if A == 1
rlm@120 762
rlm@126 763 ;; GOTO Mode 2 (set-start-point-high) if current mode is 2
rlm@121 764 0xFE ;D395
rlm@121 765 0x02 ;D396 ; compare A with 0x02
rlm@121 766
rlm@121 767 0xCA ;D397
rlm@121 768 0xBF ;D398
rlm@121 769 0xD3 ;D399 ; goto Mode 2 if A == 2
rlm@121 770
rlm@126 771 ;; GOTO Mode 3 (set-start-point-low) if current mode is 3
rlm@125 772 0xFE ;D39A
rlm@125 773 0x03 ;D39B
rlm@125 774
rlm@126 775 0xCA ;D39C
rlm@126 776 0xCD ;D39D
rlm@126 777 0xD3 ;D39E ; goto Mode 3 if A == 3
rlm@126 778
rlm@127 779 ;; GOTO Mode 4 (write-memory) if current mode is 4
rlm@127 780 0xFE ;D39F
rlm@127 781 0x04 ;D3A0
rlm@127 782
rlm@127 783 0xCA ;D3A1
rlm@127 784 0xDB ;D3A2
rlm@127 785 0xD3 ;D3A3
rlm@127 786
rlm@118 787 0x00 ;D3A4
rlm@118 788 ;; End of Mode checking, goto beginning
rlm@118 789 0xC3 ;D3A5
rlm@118 790 0x1D ;D3A6
rlm@118 791 0xD3 ;D3A7
rlm@120 792
rlm@120 793
rlm@120 794 ;; Mode 0 -- input-mode mode
rlm@120 795 ;; means that we are waiting for a mode, so set the mode to
rlm@120 796 ;; whatever is currently in input-number. If nothing is
rlm@120 797 ;; entered, then the program stays in input-mode mode
rlm@120 798
rlm@118 799 ;; set current-mode to input-number
rlm@118 800 0xFA ;D3A8 ; load input-number (0xD352)
rlm@118 801 0x52 ;D3A9 ; into A
rlm@118 802 0xD3 ;D3AA
rlm@118 803
rlm@118 804 0xEA ;D3AB ; load A into current-mode
rlm@118 805 0x82 ;D3AC ; (0xD382)
rlm@118 806 0xD3 ;D3AD
rlm@118 807
rlm@118 808 0xC3 ;D3AE ; go back to beginning
rlm@118 809 0x1D ;D3AF
rlm@118 810 0xD3 ;D3B0
rlm@120 811 ;; End Mode 0
rlm@118 812
rlm@120 813
rlm@121 814 ;; Mode 1 -- set-length mode
rlm@121 815 ;; This is the header for writing things to memory.
rlm@121 816 ;; User specifies the number of bytes to write.
rlm@120 817 ;; Mode is auto advanced to Mode 2 after this mode
rlm@120 818 ;; completes.
rlm@120 819
rlm@121 820 ;; Set bytes left to write to input-number;
rlm@120 821 ;; set current-mode to 0x02.
rlm@120 822 0xFA ;D3B1 ; load input-number (0xD352)
rlm@120 823 0x52 ;D3B2 ; into A
rlm@120 824 0xD3 ;D3B3
rlm@120 825
rlm@120 826 0xEA ;D3B4 ; load A into bytes-left-to-write
rlm@120 827 0x83 ;D3B5 ; (0xD383)
rlm@120 828 0xD3 ;D3B6
rlm@120 829
rlm@121 830 0x3E ;D3B7 ; load 0x02 into A.
rlm@120 831 0x02 ;D3B8
rlm@120 832
rlm@120 833 0xEA ;D3B9 ; load A to current-mode
rlm@120 834 0x82 ;D3BA ; advancing from Mode 1 to
rlm@120 835 0xD3 ;D3BB ; Mode 2
rlm@120 836
rlm@120 837 0xC3 ;D3BC ; go back to beginning
rlm@120 838 0x1D ;D3BD
rlm@120 839 0xD3 ;D3BE
rlm@120 840 ;; End Mode 1
rlm@121 841
rlm@121 842
rlm@126 843 ;; Mode 2 -- set start-point-high mode
rlm@126 844 ;; Middle part of the header for writing things to memory.
rlm@121 845 ;; User specifies the start location in RAM to which
rlm@121 846 ;; data will be written.
rlm@121 847 ;; Mode is auto advanced to Mode 3 after this mode completes.
rlm@121 848
rlm@126 849 ;; Set start-point-high to input-number;
rlm@121 850 ;; set current mode to 0x03.
rlm@121 851 0xFA ;D3BF ; load input-number (0xD352)
rlm@121 852 0x52 ;D3C0 ; into A
rlm@121 853 0xD3 ;D3C1
rlm@121 854
rlm@126 855 0xEA ;D3C2 ; load A into start-point-high
rlm@126 856 0x85 ;D3C3 ; (0xD385)
rlm@121 857 0xD3 ;D3C4
rlm@121 858
rlm@121 859 0x3E ;D3C5 ; load 0x03 into A.
rlm@121 860 0x03 ;D3C6
rlm@121 861
rlm@121 862 0xEA ;D3C7 ; load A to current-mode,
rlm@121 863 0x82 ;D3C8 ; advancing from Mode 2 to
rlm@121 864 0xD3 ;D3C9 ; Mode 3.
rlm@120 865
rlm@121 866 0xC3 ;D3CA ; go back to beginning
rlm@121 867 0x1D ;D3CB
rlm@121 868 0xD3 ;D3CC
rlm@121 869 ;;End Mode 2
rlm@125 870
rlm@118 871
rlm@126 872 ;; Mode 3 -- set-start-point-low mode
rlm@126 873 ;; Final part of header for writing things to memory.
rlm@126 874 ;; User specifies the low bytes of 16 bit start-point.
rlm@126 875
rlm@126 876 ;; Set start-point-low to input-number;
rlm@126 877 ;; set current mode to 0x04
rlm@126 878 0xFA ;D3CD ; load input-number into A
rlm@126 879 0x52 ;D3CE
rlm@126 880 0xD3 ;D3CF
rlm@126 881
rlm@126 882 0xEA ;D3D0 ; load A into start-point-low
rlm@126 883 0x86 ;D3D1
rlm@126 884 0xD3 ;D3D2
rlm@126 885
rlm@126 886 0x3E ;D3D3 ; load 0x04 into A.
rlm@126 887 0x04 ;D3D4
rlm@126 888
rlm@126 889 0xEA ;D3D5 ; load A to current-mode,
rlm@126 890 0x82 ;D3D6 ; advancing from Mode 3 to
rlm@126 891 0xD3 ;D3D7 ; Mode 4.
rlm@126 892
rlm@126 893 0xC3 ;D3D8 ; go back to beginning
rlm@126 894 0x1D ;D3D9
rlm@126 895 0xD3 ;D3DA
rlm@126 896
rlm@126 897 ;; Mode 4 -- write bytes mode
rlm@125 898
rlm@125 899 ;; This is where RAM manipulation happens. User supplies
rlm@125 900 ;; bytes every frame, which are written sequentially to
rlm@125 901 ;; start-point until bytes-to-write have been written. Once
rlm@125 902 ;; bytes-to-write have been written, the mode is reset to 0.
rlm@125 903
rlm@125 904 ;; compare bytes-written with bytes-to-write.
rlm@125 905 ;; if they are the same, then reset mode to 0
rlm@125 906
rlm@126 907 0xFA ;D3DB ; load bytes-to-write into A
rlm@126 908 0x83 ;D3DC
rlm@126 909 0xD3 ;D3DD
rlm@127 910
rlm@126 911 0x47 ;D3DE ; load A into B
rlm@127 912
rlm@126 913 0xFA ;D3DF ; load bytes-written into A
rlm@126 914 0x84 ;D3E0
rlm@126 915 0xD3 ;D3E1
rlm@127 916
rlm@126 917 0xB8 ;D3E2 ; compare A with B
rlm@127 918
rlm@126 919 0xCA ;D3E3 ; if they are equal, go to cleanup
rlm@127 920 0x07 ;D3E4
rlm@127 921 0xD4 ;D3E5
rlm@125 922
rlm@125 923 ;; Write Memory Section
rlm@125 924 ;; Write the input-number, interpreted as an 8-bit number,
rlm@125 925 ;; into the current target register, determined by
rlm@125 926 ;; (+ start-point bytes-written).
rlm@125 927 ;; Then, increment bytes-written by 1.
rlm@125 928
rlm@127 929 0xFA ;D3E6 ; load start-point-high into A
rlm@127 930 0x85 ;D3E7
rlm@127 931 0xD3 ;D3E8
rlm@127 932
rlm@127 933 0x67 ;D3E9 ; load A into H
rlm@127 934
rlm@127 935 0xFA ;D3EA ; load start-point-low into A
rlm@127 936 0x86 ;D3EB
rlm@127 937 0xD3 ;D3EC
rlm@127 938
rlm@127 939 0x6F ;D3ED ; load A into L
rlm@127 940
rlm@127 941 0xFA ;D3EE ; load bytes-written into A
rlm@127 942 0x84 ;D3EF
rlm@127 943 0xD3 ;D3F0
rlm@127 944
rlm@127 945 0x00 ;D3F1 ; These are here because
rlm@127 946 0x00 ;D3F2 ; I screwed up again.
rlm@125 947 0x00 ;D3F3
rlm@125 948
rlm@127 949 0x85 ;D3F4 ; add L to A; store A in L.
rlm@127 950 0x6F ;D3F5
rlm@121 951
rlm@127 952 0x30 ;D3F6 ; If the addition overflowed,
rlm@127 953 0x01 ;D3F7
rlm@127 954 0x24 ;D3F8 ; increment H.
rlm@118 955
rlm@127 956 ;; Now, HL points to the correct place in memory
rlm@127 957
rlm@127 958 0xFA ;D3F9 ; load input-number into A
rlm@127 959 0x52 ;D3FA
rlm@127 960 0xD3 ;D3FB
rlm@118 961
rlm@127 962 0x77 ;D3FC ; load A into (HL)
rlm@118 963
rlm@127 964 0xFA ;D3FD ; load bytes-written into A
rlm@127 965 0x84 ;D3FE
rlm@127 966 0xD3 ;D3FF
rlm@118 967
rlm@127 968 0x3C ;D400 ; increment A
rlm@127 969
rlm@127 970 0xEA ;D401 ; load A into bytes-written
rlm@127 971 0x84 ;D402
rlm@127 972 0xD3 ;D403
rlm@127 973
rlm@127 974 0xC3 ;D404 ; go back to beginning.
rlm@127 975 0x1D ;D405
rlm@127 976 0xD3 ;D406
rlm@127 977 ;; End Write Memory Section
rlm@127 978
rlm@127 979 ;; Mode 4 Cleanup Section
rlm@127 980 ;; reset bytes-written to 0
rlm@127 981 ;; set mode to 0
rlm@127 982 0x3E ;D407 ; load 0 into A
rlm@127 983 0x00 ;D408
rlm@127 984
rlm@127 985 0xEA ;D409 ; load A into bytes-written
rlm@127 986 0x84 ;D40A
rlm@127 987 0xD3 ;D40B
rlm@127 988
rlm@127 989 0xEA ;D40C ; load A into current-mode
rlm@127 990 0x82 ;D40D
rlm@127 991 0xD3 ;D40E
rlm@127 992
rlm@127 993 0xC3 ;D40F ; go back to beginning
rlm@127 994 0x1D ;D410
rlm@127 995 0xD3 ;D411
rlm@127 996
rlm@127 997 ;; End Mode 4
rlm@118 998
rlm@118 999 ])
rlm@118 1000
rlm@118 1001
rlm@123 1002
rlm@118 1003 (def frame-count 0xD31F)
rlm@118 1004 (def input 0xD352)
rlm@127 1005 (def current-mode 0xD382)
rlm@127 1006 (def bytes-to-write 0xD383)
rlm@127 1007 (def bytes-written 0xD384)
rlm@127 1008 (def start-point-high 0xD385)
rlm@127 1009 (def start-point-low 0xD386)
rlm@126 1010
rlm@127 1011
rlm@118 1012
rlm@118 1013 (defn write-memory []
rlm@118 1014 (-> (tick (mid-game))
rlm@118 1015 (IE! 0) ; disable interrupts
rlm@118 1016 (inject-item-assembly (write-memory-assembly))))
rlm@119 1017
rlm@119 1018 (defn test-write-memory []
rlm@119 1019 (set-state! (write-memory))
rlm@119 1020 (dorun
rlm@119 1021 (dotimes [_ 5000]
rlm@119 1022 (view-memory (step @current-state) current-mode))))
rlm@122 1023
rlm@122 1024 (def bytes-to-write 0xD383)
rlm@122 1025 (def start-point 0xD384)
rlm@122 1026
rlm@125 1027 (defn print-blank-assembly
rlm@125 1028 [start end]
rlm@125 1029 (dorun
rlm@125 1030 (map
rlm@125 1031 #(println (format "0x00 ;%04X " %))
rlm@125 1032 (range start end))))
rlm@125 1033
rlm@122 1034 (defn test-mode-2 []
rlm@122 1035 (->
rlm@122 1036 (write-memory)
rlm@123 1037 (view-memory frame-count)
rlm@122 1038 (step)
rlm@122 1039 (step [:a])
rlm@122 1040 (step [:b])
rlm@122 1041 (step [:start])
rlm@122 1042 (step [])
rlm@123 1043 (view-memory frame-count)))
rlm@123 1044
rlm@128 1045 (defn test-mode-4
rlm@128 1046 ([] (test-mode-4 (write-memory)))
rlm@128 1047 ([target-state]
rlm@128 1048 (->
rlm@128 1049 target-state
rlm@128 1050 (#(do (println "memory from 0xC00F to 0xC01F:"
rlm@128 1051 (subvec (vec (memory %)) 0xC00F 0xC01F)) %))
rlm@128 1052 (view-memory current-mode)
rlm@128 1053 (step [])
rlm@128 1054 (step [])
rlm@128 1055 (step [])
rlm@128 1056 (#(do (println "after three steps") %))
rlm@128 1057 (view-memory current-mode)
rlm@127 1058
rlm@128 1059 ;; Activate memory writing mode
rlm@128 1060
rlm@128 1061 (#(do (println "step with [:a]") %))
rlm@128 1062 (step [:a])
rlm@128 1063 (view-memory current-mode)
rlm@128 1064 (view-memory bytes-to-write)
rlm@128 1065 (view-memory start-point-high)
rlm@128 1066 (view-memory start-point-low)
rlm@127 1067
rlm@128 1068 ;; Specify four bytes to be written
rlm@128 1069
rlm@128 1070 (#(do (println "step with [:select]")%))
rlm@128 1071 (step [:select])
rlm@128 1072 (view-memory current-mode)
rlm@128 1073 (view-memory bytes-to-write)
rlm@128 1074 (view-memory start-point-high)
rlm@128 1075 (view-memory start-point-low)
rlm@127 1076
rlm@128 1077 ;; Specify target memory address as 0xC00F
rlm@128 1078
rlm@128 1079 (#(do (println "step with [:u :d]")%))
rlm@128 1080 (step [:u :d])
rlm@128 1081 (view-memory current-mode)
rlm@128 1082 (view-memory bytes-to-write)
rlm@128 1083 (view-memory start-point-high)
rlm@128 1084 (view-memory start-point-low)
rlm@127 1085
rlm@128 1086 (#(do (println "step with [:a :b :start :select]")%))
rlm@128 1087 (step [:a :b :start :select])
rlm@128 1088 (view-memory current-mode)
rlm@128 1089 (view-memory bytes-to-write)
rlm@128 1090 (view-memory start-point-high)
rlm@128 1091 (view-memory start-point-low)
rlm@127 1092
rlm@128 1093 ;; Start reprogramming memory
rlm@127 1094
rlm@128 1095 (#(do (println "step with [:a]")%))
rlm@128 1096 (step [:a])
rlm@128 1097 (view-memory current-mode)
rlm@128 1098 (view-memory bytes-written)
rlm@127 1099
rlm@128 1100 (#(do (println "step with [:b]")%))
rlm@128 1101 (step [:b])
rlm@128 1102 (view-memory current-mode)
rlm@128 1103 (view-memory bytes-written)
rlm@127 1104
rlm@128 1105 (#(do (println "step with [:a :b]")%))
rlm@128 1106 (step [:a :b])
rlm@128 1107 (view-memory current-mode)
rlm@128 1108 (view-memory bytes-written)
rlm@127 1109
rlm@128 1110 (#(do (println "step with [:select]")%))
rlm@128 1111 (step [:select])
rlm@128 1112 (view-memory current-mode)
rlm@128 1113 (view-memory bytes-written)
rlm@127 1114
rlm@128 1115 ;; Reprogramming done, program ready for more commands.
rlm@127 1116
rlm@128 1117 (#(do (println "step with []")%))
rlm@128 1118 (step [])
rlm@128 1119 (view-memory current-mode)
rlm@128 1120 (view-memory bytes-written)
rlm@128 1121
rlm@128 1122 (#(do (println "memory from 0xC00F to 0xC01F:"
rlm@128 1123 (subvec (vec (memory %)) 0xC00F 0xC01F)) %)))))
rlm@123 1124
rlm@123 1125